Servo amplifier’s absorbable energy – Yaskawa FSP Amplifier User Manual

FSP Amplifier User’s Manual

Chapter 5: Parameter Settings and Functions

5-77

If the previous calculation determines that the amount of regenerative
power (W

k

) that can be processed by the built-in resistor is not exceeded,

then an external regenerative resistor is not required.
If the amount of regenerative power that can be processed by the built-in
resistor is exceeded, install an external regenerative resistor for the capacity
obtained from the above calculation.
If the energy consumed by load system loss (in step 2 above) is unknown,
then perform the calculation using E

L

= 0.

When the operation period in regeneration mode is continuous, add the
following items to the calculation procedure above in order to find the
required capacity (W) for the regenerative resistor.
• Energy for continuous regeneration mode operation period: E

G

(joules)

• Energy consumed by regenerative resistor: E

K

=

E

S

–

(E

L

+ E

M

+ E

C

) + E

G

• Required capacity of regenerative resistor: W

K

= E

K

/ (0.2

⋅

T)

Here, E

G

= (2

π

/60) N

MG

x τ

G

⋅

t

G

• τ

G

: Servomotor’s generated torque [oz·in (N·m)] in continuous

regeneration mode operation period.

• N

MG

: Servomotor rotation speed (rpm) for same operation period as

above.

•

t

G

: Same operation period (s) as above.

Servo Amplifier’s Absorbable Energy

The following diagrams show the relationship between the servo
amplifier’s input power supply voltage and its absorbable energy.
• FSP Amplifier for 200 V motor

FSP Amplifier

FSP-

A3, A5

• FSP Amplifier for 400 V motor

FSP Amplifier

FSP-